INSERM U1132 and Université de Paris, Reference Centre for Rare Bone Diseases, Hospital Lariboisière, Paris F-75010, France.
Endocrine Bone Diseases and Genetics Unit, Reference Centre for Rare Diseases of Calcium and Phosphate Metabolism, ERN BOND, OSCAR Network, Pediatric Clinical Research Unit, Children's Hospital, RESTORE INSERM U1301, Toulouse University Hospital, Toulouse 31300, France.
Hum Mol Genet. 2022 May 19;31(10):1622-1634. doi: 10.1093/hmg/ddab349.
Monogenic early onset osteoporosis (EOOP) is a rare disease defined by low bone mineral density (BMD) that results in increased risk of fracture in children and young adults. Although several causative genes have been identified, some of the EOOP causation remains unresolved. Whole-exome sequencing revealed a de novo heterozygous loss-of-function mutation in Wnt family member 11 (WNT11) (NM_004626.2:c.677_678dup p.Leu227Glyfs22) in a 4-year-old boy with low BMD and fractures. We identified two heterozygous WNT11 missense variants (NM_004626.2:c.217G > A p.Ala73Thr) and (NM_004626.2:c.865G > A p.Val289Met) in a 51-year-old woman and in a 61-year-old woman, respectively, both with bone fragility. U2OS cells with heterozygous WNT11 mutation (NM_004626.2:c.690_721delfs40) generated by CRISPR-Cas9 showed reduced cell proliferation (30%) and osteoblast differentiation (80%) as compared with wild-type U2OS cells. The expression of genes in the Wnt canonical and non-canonical pathways was inhibited in these mutant cells, but recombinant WNT11 treatment rescued the expression of Wnt pathway target genes. Furthermore, the expression of RSPO2, a WNT11 target involved in bone cell differentiation, and its receptor leucine-rich repeat containing G protein-coupled receptor 5 (LGR5), was decreased in WNT11 mutant cells. Treatment with WNT5A and WNT11 recombinant proteins reversed LGR5 expression, but Wnt family member 3A (WNT3A) recombinant protein treatment had no effect on LGR5 expression in mutant cells. Moreover, treatment with recombinant RSPO2 but not WNT11 or WNT3A activated the canonical pathway in mutant cells. In conclusion, we have identified WNT11 as a new gene responsible for EOOP, with loss-of-function variant inhibiting bone formation via Wnt canonical and non-canonical pathways. WNT11 may activate Wnt signaling by inducing the RSPO2-LGR5 complex via the non-canonical Wnt pathway.
单基因早发性骨质疏松症(EOOP)是一种罕见疾病,其特征为骨密度低,导致儿童和青年骨折风险增加。尽管已经确定了几个致病基因,但一些 EOOP 的病因仍未得到解决。全外显子组测序在一名 4 岁男孩中发现了 Wnt 家族成员 11(WNT11)(NM_004626.2:c.677_678dup p.Leu227Glyfs22)的从头杂合失活突变,该男孩患有低骨密度和骨折。我们在一名 51 岁女性和一名 61 岁女性中分别发现了杂合 WNT11 错义变体(NM_004626.2:c.217G > A p.Ala73Thr)和(NM_004626.2:c.865G > A p.Val289Met),这两名女性均存在骨骼脆弱的情况。通过 CRISPR-Cas9 产生的杂合 WNT11 突变(NM_004626.2:c.690_721delfs40)的 U2OS 细胞显示细胞增殖(30%)和成骨细胞分化(80%)减少,与野生型 U2OS 细胞相比。这些突变细胞中 Wnt 经典和非经典途径的基因表达受到抑制,但重组 WNT11 处理可挽救 Wnt 途径靶基因的表达。此外,WNT11 靶基因参与骨细胞分化的 RSPO2 的表达及其受体富含亮氨酸重复的 G 蛋白偶联受体 5(LGR5)在 WNT11 突变细胞中降低。用 WNT5A 和 WNT11 重组蛋白处理可逆转 LGR5 的表达,但 Wnt 家族成员 3A(WNT3A)重组蛋白处理对突变细胞中 LGR5 的表达无影响。此外,用重组 RSPO2 处理而非 WNT11 或 WNT3A 处理可激活突变细胞中的经典途径。总之,我们已确定 WNT11 是一种新的 EOOP 致病基因,其功能丧失变异通过 Wnt 经典和非经典途径抑制骨形成。WNT11 可能通过非经典 Wnt 途径诱导 RSPO2-LGR5 复合物的形成来激活 Wnt 信号。
